AU2014284290B2

AU2014284290B2 - Foldable curved wireless communication device for insertion into hip pocket

Info

Publication number: AU2014284290B2
Application number: AU2014284290A
Authority: AU
Inventors: John Ashmore Lumbard
Original assignee: Individual
Current assignee: Individual
Priority date: 2013-07-05
Filing date: 2014-07-03
Publication date: 2018-03-29
Anticipated expiration: 2034-07-03
Also published as: AU2014284290A1; CA2915254C; JP2016525832A; WO2015003105A3; US9591114B2; WO2015003105A2; US20150011262A1; EP3017588A4; EP3017588A2; US20150011272A1; JP6522603B2; EP3017588B1; CA2915254A1

Abstract

A mobile communication device comprising a first member with first surface having a first curvature and a second surface having a second curvature; a second member having first surface with a third curvature and a second surface with a fourth curvature. A hinge pivotally connects the first and second members with one another such that they are movable between opened and dosed configurations. The first and the second curvatures of the first member combine with one another and form a combined average curvature for the first member and the third and the fourth curvatures of the second member combine combine with one another and form a combined average curvature for the second member. The combined average curvature for the first member and the combined average curvature for the second member combine with one another forming a combined average curvature for the communication device which is 8 feet or less.

Description

FIELD OF THE INVENTION [0003] BACKGROUND OF THE INVENTION [0004] A mobile communication device, such as a flip phone or clamshell type handheld mobile communication device is generally known in the art. Such device typically comprises a first body member and a second body member which are pivotably coupled or connected together along a first edge by a conventional hinge or linkage mechanism such that the first member can be rotated with respect to the second member, between a stored “closed” position or configuration and an in-use “opened” position or configuration. The first body member is typically referred to as a lid member while the second member is commonly referred to as a base member, [0005] The lid member commonly includes a graphical display while the base member typically includes a keyboard or some other alphanumeric input device. The graphical display and keyboard are typically located on the inwardly facing surfaces of the respective members. In the closed configuration, the inwardly facing surfaces of the lid and base members face one another and thus are not generally accessible by a user of the mobile communication device. In the opened configuration, however, the inwardly facing surfaces of the lid and base members generally form an angle of between about 120 and 180 degrees with respect to one another and are thus accessible/visible by the user of the mobile communication device to facilitate use thereof.

[0006] It is to be appreciated that for a mobile communication device, such as a flip phone device, it may be desirable for one or more input buttons or displays to be accessible when the mobile communication device is in the closed configuration. For example, a user of the mobile communication device may desire to check the status of the device, control media, silence a ringer, play a game, use an integrated camera, or send or receive other information while the mobile communication device is in the closed configuration. Therefore, the mobile communication device may further include one or more interface elements, such as an exterior touch screen, on an interface surface which is located on an exposed outwardly facing surface or rf·,:

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PCT/US2014/045338 along an perimeter edge of the mobile communication device in order to be accessible when the flip phone is in a closed configuration.

[0007] in a conventional mobile communication device, any interface element(s) on an outer surface of the device may not be easily accessible when the mobile communication device is in the opened configuration. Forexample, when the mobile communication device is in the opened configuration, the outer surface with the interface elements may not be facing in the same direction as the inwardly facing surfaces which supports the graphic display and/or the keyboard, for example. Accordingly, such interface element(s) may also be partially or completely hidden by the lid and/or the base members when the mobile communication device is in the opened configuration. Therefore, a conventional approach to allow access to interface elements, when the mobile communication device is in the opened configuration, is to duplicate one or more of these interface element(s), e.g., to locate such interface element(s) both an outwardly as well as an inwardly facing surface of the mobile communication device. However, this, in turn, leads to increase cost, size and/or complexity for the mobile communication device.

[0008] Mobile communication devices have always involved compromises, which mostly result from a desire to produce complicated devices with many gadgets and features that fit info a relatively small package for easy transport. The advent of touchscreen smartphones has exacerbated the problem because consumers want phones with large screen displays. This conflict was recently illustrated in North America, where mobile phone leaders, opted to roll out LTE offerings in the 700 MHZ frequency band. Such frequency bands (Band 17, 704-748 MHZ and Band 13, 746-786 MHZ) are lower than the legacy cellular frequency band used in North America (Band 5, 824-894 MHZ). However, the consumer demand for smaller, pocket-friendly devices has reduced the available antenna length and overall volume or interior space for the current designs of the mobile communication devices. Reducing the length of the antenna correspondingly tends to reduce the antenna bandwidth and overall efficiency. This reduction of length of the antenna length causes significant controversial compromises because lower frequencies have longer wavelengths and, therefore, typically require longer antennas in order to maintain radiation efficiency.

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PCT/US2014/045338 [0009] SUMMARY OF THE INVENTION [0010] Despite the wide variety of mobile phones/communication devices available on the market today, there still remains a need for a communication device which not only incorporates the newest features but does so in a consumer friendly, easily transportable, and comfortable manner. Mobile communication devices are an essential aspect of the average consumer's lifestyle and as such, are carried wherever the consumer goes. However, in order to leave their hands free, many consumers carry their communication devices in their hip pockets despite an awkward fit and discomfort. To compensate for such discomfort, some users only partially insert their communication devices into their hip pockets, which then have a tendency to fall out and thereby create a risk of serious damage.

[0011] One of the main objects of the present invention is to provide a design, for a mobile communications device, that fits easily and comfortably in a hip pocket of a owner/user, similar to the fit achieved by a “broken-in wallet. An embodiment of this invention is a rigid communication device which has a generally curved body, when in its closed configuration, which easily and comfortably slides and fits into a rear hip pocket of a mobile communication device owner/end-user without any significant discomfort.

[0012] Another object of the present invention is to provide an accessory that is much thicker than today's wireless devices and offers increased surface area, when In the opened configuration.

[0013] Yet another object of the present invention is to provide an accessory that can offer an antenna which has an increased transmission/reception length, when the communication device is in the open configuration, which can accommodate lower frequencies which have longer wavelengths and thereby maintain radiation efficiency for the communication device.

[0014] According to one embodiment of the invention, the mobile communication device comprises a full QWERTY keyboard; a display screen; a removable battery; antennae; and at least one speaker. The preferred embodiment includes ail of these components enclosed within a rugged clamshell case that is designed to absorb the shock of an inadvertent fall without spiderweb damage to the display that ·>

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PCT/US2014/045338 commonly occurs with the display screen(s) of currently available smartphones/communication devices and/or damage to the internal electronic components.

[0015] According to a preferred embodiment, two display screens are provided, e.g., one large touchscreen and a smaller electronic-paper screen for writing messages. The electronic-paper screen generally consumes very little power, so battery life can be extended by turning off the large display and only using the small display for messaging, for example. The battery source is larger than that found in today’s smartphones, and it can be removed and replaced with charged spare batteries — thus allowing a user to travel for many days without recharging.

[0018] In a preferred form of the invention, the mobile communication device has 700 ΜΗζ-band antennae of greater length than has been previously provided for in prior art smartphones/communication devices, which provide better reception and improved transmission/reception sound quality.

[0017] Finally, a preferred embodiment utilizes a display screen with a curved glass surface in order to increase the average radius of curvature of the device. It is now possible to manufacture rigid curved touchscreen glass, thus allowing devices that precisely conform to the consumer’s body.

[0018] The wallet-like form factor allows significant thickness, relative to current designs, and a much-greater surface area for screens and for a full-featured keypad. The additional volume of the mobile communication device can be used to accommodate a larger, removable battery, better speakers, more-efficient antennae, and other features.

[0019] The old-fashioned telephone handset is still the gold standard for comfortable handheld conversation, A carefully-shaped folding hip phone can offer a comparable level of privacy and sound quality, and end the practice of shouting into the air while talking. This design, according to the present invention, absorbs the sound of the user’s voice into the keyboard, and reflects it back toward his or her face. The curve in the screen also prevents contact between the consumer's face and the display, thus avoiding smudging of the screen.

[0020] The mobile communication device can be carried in a shirt pocket, either for use in speaker phone mode or for listening to music with the built-in MPS player.

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PCT/US2014/045338 [0021] Closing the clamshell, after completion of a call, terminates the phone connection and turns off power to the display with certainty and finality that is not found in today's smart phones. The latter typically require two steps to complete the same action, and are thus responsible for a lot of unintended dialing.

[0022] When closed, the clamshell design will protect the two displays from scratches and the spider web cracking that has become all too common. The displays are mounted on curved-but-rigid sheets of carbon fiber or some other strong, lightweight, and rigid and durable material; the exterior shell of the phone is rigid and padded at the crown and hinges, but flexible enough at the edges to absorb a drop from chest level - regardless of orientation of the mobile communication device upon landing.

[0023] BRiEF DESCRIPTION OF THE DRAWINGS [0024] The present invention will be understood by reference to the following detailed description, which should be read in conjunction with the appended drawings, it is to be appreciated that the following detailed description of various embodiments is by way of example only and is not meant to limit, in any way, the scope of the present invention.

[0025] Fig. 1 is a diagrammatic front perspective view of the mobile communication device which comprises first and second members shown in an opened configuration.

[0028] ¹ Fig. 2 is a diagrammatic front perspective view of the mobile communication device of Fig, 1, shown in a closed configuration.

[0027] Fig. 3 is a diagrammatic rear perspective view of the mobile communication device of Fig. 2 in the closed configuration.

[0028] Fig, 4 is a diagrammatic side elevational view of the mobile communication device of Fig, 2 in the closed configuration.

[0029] Fig. 5 is a diagrammatic front elevational view showing the inwardly facing surfaces of the first and the second members.

[0030] Fig. 8 is a diagrammatic view showing one possible arrangement for 700 MHz-band antennae according to the invention.

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PCT/US2014/045338 [0031] Figs. 7A, 7B, 7C, 7D, 7E, 7F, 7G, 7H and 7I are diagrammatic side elevational views of various embodiments of the mobile communication device, according to the present invention, which are each shown in a closed configuration so as to illustrate the combined radius of curvature for the first and the second members and the combined radius of curvature for the communication device.

[0032] DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS [0033] Fig. 1 illustrates an embodiment of the invention in an open configuration, with the first member 1 pivoted or rotated with respect to the second member 2, about the hinge, into the opened configuration. The large touchscreen or other display screen 3 of the first member 1 is backed by a curved sheet of strong and rigid material, such as carbon fiber. In this embodiment, a smaller electronic-paper screen 4 is also provided on the second member 2 so that, when utilized as an applications device, the consumer will be able to type messages while viewing a document online. To facilitate use of the device in this manner, this embodiment also provides a full QWERTY keyboard 5, located below the smaller screen 4. This keyboard 5 is shown with a full set of the most-commonly-used symbols, preferably all with tactile rubberized buttons that facilitate rapid typing.

[0034] This opened configuration is also for utilization as a mobile communication device. When speaking, the consumer typically places his or her ear against the earphone 6 which protrudes from an upper corner of the inner surface of the first member, for example, as shown in Figure 1, and speaks into a first microphone 7 located near the central portion of the inner surface of the second member 2. This embodiment provides several advantages over the prior art. First, the curve of the display screen will generally keep the display screen 3 free of the smudging that is common to most of today's devices. Second, due to the average curvature of the first and the second members 1, 2, as discussed below in further detail, the consumer is provided with increased privacy, in a manner similar to that achieved by the older telephone handset. This arrangement assists with providing more secure and private conversation, particularly in restaurants, on airplanes, and/or in other public locations. That is, the communication device 10, according to the present invention, makes it much easier to hear the conversation, via the earpiece

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6, as well as facilitate reception of the sound emitted toward the first microphone

7. The first member also supports a conventional camera 19.

[0035] Another aspect of the present invention illustrated is the clamshell design similar to the flip phones that were popular before smartphones were introduced. However, the communication device of Figure 1 is designed to be significantly larger than the prior art. The additional size is made possible by the average curvature of the communication device - described below in further detail - which allows it to be comfortably inserted in the typical hip pocket of an owner. Greater width, length, and thickness of the communication device 10 allow more display area, a full QWERTY keyboard 5, and other advantages over fhe prior art. A full QWERTY keyboard 5 with tactile buttons includes punctuation and symbols, delete and backspace buttons, and a navigation button to easily place the cursor where desired, [0036] As previously discussed, lower frequency bands (such as band 17, 704-746 MHZ and band 13, 746-786 MHZ) have longer wavelengths and, therefore, require longer antennas in order to maintain the adequate radiation efficiency. The most commonly used frequency band for LTE transmission is in the 700 MHZ band. The antenna elements used for reception in the 700 MHZ band should ideally be 7,4 inches to 8.5 inches long --for 3G, the associated antennae generally have a shorter length which is typically less than about 7.0 inches. As such, the antenna typically has a length which ranges from a few inches (e.g., 3 -5 inches) to about 9,0 inches or so. Current smartphones are generally not long and/or wide enough for adequately accommodating antennae of this length, and the compact size of such communication devices tend to increase interference from electronic components. The clamshell design of the present invention, when manipulated into the opened configuration, offers greater length, width, surface area and volume thereby resulting in greatly improved reception.

[0037] Again, most consumers typically carry his/her communication device 10 in a hip pocket despite any awkwardness and/or discomfort that results from trying to fit a cuboid-shaped item into a hemispherical pocket with a crescent shaped mouth, for example. As shown in Figure 1, a curved and rigid screen 3 can be sufficiently protected by a folding device that has flexible edges for comfort and ruggedness

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PCT/US2014/045338 while still providing a greater curvature which is typically necessary for ease of transport via a hip pocket. The embodiment of Fig. 1 offers a large screen, comparable to those in today's most-popular smart phones, as well as a smaller electronic-paper screen 4, located above the keyboard 5, which can be used to generate e-mails and text messages without an excessive drain of battery power. Alternately both screens can be used at the same time to review a document or a web page while also generating an e-mail or a text message.

[0038] Figs. 2 and 3 show the mobile communication device 10 in a closed configuration, with a view of the exterior of the first member 1. If desired, the hinges 11 and/or edges of the communication device may be covered and/or padded to assist with absorbing shock in the event that the communication device 10 is inadvertently or accidently dropped. If desired, a cover 12, generally shown in the bottom left corner of the second member 2, may be provided for covering the lens of the camera 19. A consumer would typically insert the smart phone/communication device 10 into his/her hip pocket with the hinge 11 facing upward.

[0039] The end user/owner can speak into the communication device, when in the closed configuration, via a second microphone 13 provided at the end of the communication device adjacent the hinge 11. In addition, one or more speakers 14 may be formed in a side wall or end wail of the communication device 10 so it could be used in a speaker phone mode while being carried in a breast pocket.

[0040] Figure 4 is a side view, showing the longitudinal curvature of the exterior of the first member 1 and the complex longitudinal curvature of the exterior face of the second member 2 along a longitudinal axis A of the mobile communication device 10.

[0041] Figure 5 is a front elevational view of the communication device shown in an opened configuration with both of the interior surfaces of the communication device being visible. A smaller electronic-paper screen 4 is located above the keyboard 5 of the second member 2 while the main microphone 7 is supported on the keyboard 5. The number pad 20 and the depression or well 23, which receives the camera 19 when the communication device 10 is in the closed configuration, are located ,-8WO 2015/003105

PCT/US2014/045338 below the keyboard 5, The camera 19 is located adjacent the large touchscreen or other display screen 3 of the first member 1.

[0042] Figure 6 is a diagrammatic view showing one possible layout for half-wavelength 700 MHz-band antennae, printed on two sheets 21,22 of material. While difficult to visualize in this orientation, it is to be understood that both sheets 21,22 extend substantially along the entire length and the width of each one of the members 1,2. Furthermore, while there is little separation between the two sheets 21,22 in the (thin) first member 1, there is much greater separation between the two sheets 21,22 in the thicker body of the second member 2. The second member 2 also holds a hemispherical antenna. Interference from the electronics of the communication device 10 will be mostly concentrated in the second member 2; the first member 1 will be relatively free of antenna interference when compared to other smartphones, [0043] Turning now to Figs. 7A-7I, various embodiments of the communication device, shown in the folded closed configuration, will now be described. It is to be appreciated that each of Figs. 7A-7I illustrate various alternative embodiments which have surfaces 40, 43, 45, 47, curvatures C1, C2, C3, C4, average curvatures A1, A2, A3, radiuses of curvatures R1, R2, R4, R5, and average radii of curvatures R3, R6, R7. It is to be appreciated that these embodiments merely represent a number of various implementations which all fall within the spirit and scope of the present invention.

[0044] For each of Figs. 7A-7I, the first member 1 has an outwardly facing first surface 40 which defines a first curvature C1 that has a corresponding first radius of curvature R1. The opposing side of the first member 1 has an inwardly facing second surface 43 which defines a second curvature C2 that has a corresponding second radius of curvature R2. The first curvature Cl and the second curvature C2 combine with one another form a first average curvature A1 for the first member 1. Likewise, the first radius of curvature R1and the second radius of curvature R2 combine with one another to form a first average radius of curvature R3 for the first member 1.

[0045] The second member 2 has an inwardly facing third surface 45 which defines a third curvature C3 that has a corresponding third radius of curvature R4. The

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PCT/US2014/045338 opposing side of the second member 2, has an outwardly facing fourth surface 47 which defines a fourth curvature C4 that has a corresponding fourth radius of curvature R5. The third curvature C3 and the fourth curvature C4 combine with one another to form a second average curvature A2 for the second member 2. Likewise, the third radius of curvature R4 and the fourth radius of curvature R5 combine with one another to form a second average radius of curvature R6 for the second member 2.

[0046] In addition, the first average curvature A1, for the first member 1, and the second average curvature A2, for the second member 2, combine with one another to form a device average curvature A3 for the communication device 10. Likewise, the first average radius of curvature R3 and the second average radius of curvature R6, for the first and second members 1, 2, combine with one another to form a device average radius of curvature R7 for the communication device 10.

[0047] Turning now to Fig. 7A, as generally shown therein, the first member 1 has a generally curved outwardly facing first surface 40 and a generally curved second surface 43, while the second member 2 has a generally curved third surface 45 and a generally planar outwardly facing fourth surface 47. The first, the second and the third surfaces 40, 43, 45, respectively, have first, second, and third curvatures G1, C2, C3 with corresponding radiuses of curvatures R1, R2, R4 which typically range between 2 inches and 8 feet, and more preferably range between about 6 inches and about 24 inches or so. The first average curvature A1 of the first member 1 has a first average radius of curvature R3 for the first member 1 which typically ranges between 2 inches and 8 feet, and more preferably range between about 6 inches and about 24 inches or so; the second average curvature A2 for the second member 2 has a second average radius of curvature R6 for the second member 2 which typically ranges between 2 inches and 8 feet, and more preferably range between about 6 inches and about 24 inches or so; and device average curvature A3 has a device average radius of curvature R7 which typically ranges between 2 inches and 8 feet, and more preferably range between about 6 inches and about 24 inches or so. The fourth surface 47 has a curvature C4 of approximately zero and thus a corresponding radius of curvature R5 which is approaching infinity.

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PCT/US2014/045338 [0048] Turning now to Fig. 7B, the first member 1 has a generally curved outwardly facing first surface 40 while the second member 2 has a generally planar outwardly facing fourth surface 47. The first surface 40 has a first curvature C1 with a corresponding radius of curvature R1 which typically ranges between 2 inches and 8 feet, and more preferably ranges between about 6 inches and about 24 inches or so. Like the fourth surface 47, the second and third surfaces 43,45 have curvatures C2, C3 approaching zero, e.g., both of those surfaces are substantially planar. Accordingly, the corresponding radiuses of curvatures R2, R4, R5, for the second, the third and the fourth surfaces 43, 45, 47, are each approaching infinity.

[0049] The resulting average curvature R8, for the second member 2, is approximately zero and has a corresponding second average radius of curvature R8 which approaches infinity. According this embodiment, only the outwardly facing first surface 40 of the first member 1 is curved with a first curvature C1, As such, the first radius of curvature R1 is the only radius of curvature that does not approach infinity but instead is approximately between 2 inches and 8 feet, and more preferably ranges between about 6 inches and about 24 inches or so. The resulting first average curvature A1 for the first member 1 has a corresponding first average radius of curvature R3 of between 2 inches and 8 feet, and more preferably range between about 6 inches and about 24 inches or so. Finally, the communication device has an average curvature A3 with a corresponding average radius of curvature R7 which ranges between 2 inches and 8 feet, and more preferably ranges between about 8 inches and about 24 inches or so.

[0050] Turning now to Fig. 7C, as generally shown therein, the first member 1 has a generally curved outwardly facing first surface 40 while the second member 2 has a generally curved outwardly facing fourth surface 47. The first and the fourth surfaces 40, 47 respectively have first and fourth curvatures C1, C4 with corresponding radiuses of curvatures R1, R5 which each typically range between 2 inches and 8 feet, and more preferably range between about 6 inches and about 24 inches or so. The second and the third surfaces 43, 45 each have curvatures G2, C3 approaching zero, e.g., both of those surfaces are substantially planar. Accordingly, the corresponding radiuses of curvatures R2, R4, for the second and the third surfaces 43, 45, are each approaching infinity.

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PCT/US2014/045338 [0051] The first average curvature A1 of the first member 1 has a first average radius of curvature R3 for the first member 1 which typically ranges between 2 inches and 8 feet, and more preferably range between about 8 inches and about 24 inches or so; the second average curvature A2 for the second member 2 has a second average radius of curvature R8 for the second member 2 which typically ranges between 2 inches and 8 feet, and more preferably range between about 6 inches and about 24 inches or so; and the device average curvature A3 has a device average radius of curvature R7 which typically range between 2 inches and 8 feet, and more preferably range between about 8 inches and about 24 inches or so.

[0052] Turning now to Fig. 7D, as generally shown therein, the first member 1 has a generally curved outwardly facing first surface 40 while the second member 2 has a generally curved, concave, outwardly facing fourth surface 47 which comprises a plurality of sequentially arranged planar segments. The first and the fourth surfaces 40, 47 respectively have first and fourth curvatures C1, C4 with corresponding radiuses of curvatures R1, R5 which each typically range between 2 inches and 8 feet, and more preferably range between about 8 inches and about 24 inches or so. The second and the third surfaces 43,45 each have curvatures C2, C3 approaching zero, e.g., both of those surfaces are substantially planar. Accordingly, the corresponding radiuses of curvatures R2, R4, for the second and the third surfaces 43, 45, are each approaching infinity.

[0053] The first average curvature A1 of the first member 1 has a first average radius of curvature R3 for the first member 1 which typically ranges between 2 inches and 8 feet, and more preferably ranges between about 6 inches and about 24 inches or so; the second average curvature A2 for the second member 2 has a second average radius of curvature R6 for the second member 2 which typically ranges between 2 inches and 8 feet, and more preferably ranges between about 8 inches and about 24 inches or so; and the device average curvature A3 has a device average radius of curvature R7 which typically ranges between 2 inches and 8 feet, and more preferably ranges between about 6 inches and about 24 inches or so.

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PCT/US2014/045338 [0054] Turning now to Fig. 7E, as generally shown therein, the first member 1 has a generally planar outwardly facing first surface 40 and a generally planar second surface 43, while the second member 2 has a generally planar third surface 45 and a generally curved outwardly facing fourth surface 47. That is, the first, the second and the third surfaces 40, 43, 45 have corresponding first, second and third curvatures C1, C2, C3 which each approach zero, e.g., each of those surfaces are substantially planar. Accordingly, the corresponding radiuses of curvatures R1, R2, R4, for the first, the second and the third surfaces 40,43,45, respectively, are each approaching Infinity. The fourth surface 47 has a corresponding fourth curvature C4 with a radius of curvature R5 which typically ranges between 2 inches and 8 feet, and more preferably ranges between about 6 inches and about 24 inches or so.

[0055] The first average curvature A1 of the first member 1 has a first average radius of curvature R3 for the first member 1 which typically is approaching infinity; the second average curvature A2 for the second member 2 has a second average radius of curvature R6 which typically ranges between 2 inches and 8 feet, and more preferably range between about 6 inches and about 24 inches or so; and the device average curvature A3 has a device average radius of curvature R7 which typically ranges between 2 inches and 8 feet, and more preferably ranges between about 6 inches and about 24 inches or so.

[0058] Turning now to Fig. 7F, as generally shown therein, the first member 1 has a generally planar outwardly facing first surface 40 and a generally planar second surface 43, while the second member 2 has a generally planar third surface 45 and a generally curved, concave, outwardly facing fourth surface 47. As shown, the outwardly facing fourth surface 47 is formed of a series of sequentially interconnected generally planar surfaces which together comprise and form the generally curved outwardly facing fourth surface 47. The first, the second and the third surfaces 40, 43, 45 have corresponding first, second and third curvatures C1, C2, C3 which each approach zero, e.g., each of those surfaces are substantially planar. Accordingly, the corresponding radiuses of curvatures R1, R2, R4, for the first, the second and the third surfaces 40, 43, 45, respectively, are each approaching infinity. The fourth surface 47 has a fourth curvature C4 with a radius

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PCT/US2014/045338 of curvature R5 which typically ranges between 2 inches and 8 feet, and more preferably ranges between about 6 inches and about 24 inches or so.

[0057] The first average curvature A1 of the first member 1 has a first average radius of curvature R3 for the first member 1 which typically is approaching infinity; the second average curvature A2 for the second member 2 has a second average radius of curvature R6 for the second member 2 which typically ranges between 2 inches and 8 feet, and more preferably ranges between about 6 inches and about 24 inches or so; and device average curvature A3 has a device average radius of curvature R7 which typically ranges between 2 inches and 8 feet, and more preferably range between about 8 inches and about 24 inches or so.

[0058] Turning now to Fig. 7G, as generally shown therein, the first member 1 has a generally curved outwardly facing first surface 40 and a generally planar second surface 43, while the second member 2 has a generally planar third surface 45 and a generally curved outwardly facing fourth surface 47. As shown, the outwardly facing first surface 40 is formed of a series of sequentially interconnected generally planar surfaces which together comprise and form the generally curved outwardly facing first surface 40. That is, the second and the third surfaces 43, 45 have second and third curvatures C2, C3 approaching zero, e.g., both of those surfaces are substantially planar. Accordingly, the corresponding radiuses of curvatures R2, R4, for the second and the third surfaces 43,45, respectively, are each approaching infinity. The first and the fourth surfaces 40, 47, respectively, have first and fourth curvatures C1, C4 with radiuses of curvature R1, R5 which each typically range between 2 inches and 8 feet, and more preferably range between about 6 inches and about 24 inches or so.

[0059] The first average curvature A1 of the first member 1 has a first average radius of curvature R3 for the first member 1 which typically ranges between 2 inches and 8 feet, and more preferably ranges between about 6 inches and about 24 inches or so; the second average curvature A2 for the second member 2 has a second average radius of curvature R6 for the second member 2 which typically ranges between 2 inches and 8 feet, and more preferably ranges between about 6 inches and about 24 inches or so; and the device average curvature A3 has a device average radius of curvature R7 which typically ranges between 2 inches and

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PCT/US2014/045338 feel, and more preferably ranges between about 6 inches and about 24 inches or so.

[0060] Turning now to Fig. 7H, as generally shown therein, the first member 1 has a generally curved outwardly facing first surface 40 and a generally planar second surface 43, while the second member 2 has a generally planar third surface 45 and a generally planar outwardly facing fourth surface 47. As shown, the outwardly facing first surface 40 is formed of a series of sequentially interconnected generally planar surfaces which together comprise and form the generally curved outwardly facing first surface 40. Therefore, the first curvature C1 of the outwardly facing first surface 40 of the first member 1 is the only curvature, in this embodiment, which is greater than zero. Likewise, the first radius of curvature R1 is the only radius of curvature that does not approach infinity but instead, Is approximately between 2 inches and 8 feet, and more preferably ranges between about 6 inches and about 24 inches or so.

[0061] The second, the third and the fourth surfaces 43, 45, 47, respectively, have second, third and fourth curvatures C2, C3, C4 approaching zero, e.g., each of those surfaces are substantially planar. Accordingly, the corresponding radiuses of curvatures R2, R4, R5 for the second, the third and the fourth surfaces 43, 45, 47, respectively, are each approaching infinity. The first surface 40 has a first curvature C1 with radius of curvature R1 which typically ranges between 2 inches and 8 feet, and more preferably ranges between about 6 inches and about 24 inches or so.

[0082] The first average curvature A1 of the first member 1 has a first average radius of curvature R3 which typically ranges between 2 inches and 8 feet, and more preferably ranges between about 6 inches and about 24 inches or so; the second average curvature A2 for the second member 2 has a second average radius of curvature R6 which is approaching infinity; and the device average curvature A3 has a device average radius of curvature R7 which typically ranges between 2 inches and 8 feet, and more preferably ranges between about 6 inches and about 24 inches or so.

[0083] Turning now to Fig. 71, as generally shown therein, the first member 1 has a generally curved outwardly facing first surface 40 and a generally planar second surface 43, while the second member 2 has a generally planar third surface 45 and

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PCT/US2014/045338 a generally planar outwardly facing fourth surface 47. As shown, the outwardly facing first surface 40 is formed of a series of sequentially interconnected generally planar surfaces which together comprise and form the generally curved outwardly facing first surface 40 and the outwardly facing fourth surface 47 is also formed of a series of sequentially interconnected generally planar surfaces which together comprise and form the generally curved outwardly facing fourth surface 47. Therefore, the first curvature C1 of the outwardly facing first surface 40 of the first member 1 and the fourth curvature C4 of the inwardly facing fourth surface 47 of the second member 2 are the only curved surfaces, in this embodiment, that have curvatures greater than zero. Likewise, both the first and the fourth radiuses of curvature R1, R5 are the only radiuses of curvature that do not approach infinity but instead, are each between 2 inches and 8 feet, and more preferably range between about 6 inches and about 24 inches or so.

[0084] The second and the third surfaces 43, 45, respectively, have second and third curvatures C2, C3 which each approach zero, e.g., each of those surfaces are substantially planar. Accordingly, the corresponding radiuses of curvatures R2, R4, for the second and the third surfaces 43, 45, respectively, are each approaching infinity.

[0065] The first average curvature A1 of the first member 1 has a first average radius of curvature R3 for the first member 1 which typically ranges between 2 inches and 8 feet, and more preferably ranges between about 8 inches and about 24 inches or so; the second average curvature A2 for the second member 2 has a second average radius of curvature R6 which typically ranges between 2 inches and 8 feet, and more preferably ranges between about 8 inches and about 24 inches or so; and the device average curvature A3 has a device average radius of curvature R7 which typically ranges between 2 inches and 8 feet, and more preferably ranges between about 8 inches and about 24 inches or so.

[0088] While each of Figs. 7A-7I were described as having surfaces with curvatures which generally extend parallel to a longitudinal axis of the mobile communication device, it is to be appreciated that the mobile communication device may also have surfaces with curvatures which extend substantially normal to the longitudinal axis of the mobile communication device, e.g., the curvature is from edge to edge of the

-16WO 2015/003105

PCT/US2014/045338 first and second members 1, 2 rather than .from end to end of the first and second members 1,2. Further, it is to be appreciated that the mobile communication device may also comprise both: (1) surfaces with curvatures which extend parallel to longitudinal axis of the mobile communication device and (2) surfaces with curvatures which extend substantially normal to the longitudinal axis of the mobile communication device.

[0067] The mobile communication device may include at least one display screen that utilizes one of electronic paper, e-paper or electronic ink display technology. As such display technology is conventional and well known in the art, a further discussion concerning the same is not provided herein.

[0068] In order to provide the mobile communication device with a shock absorbing capability or feature, one or more of the peripheral edges, sides and/or surfaces of at least one of the first and second members 1,2, is flexible, resilient, etc., so as to provide at least one of the first and second members 1, 2 with shock absorbing feature in the event that the mobile communication device is inadvertently dropped by the user.

[0069] In the above description and appended drawings, it is to be appreciated that only the terms “consisting of” and “consisting only of” are to be construed in the limitative sense while of all other terms are to be construed as being open-ended and given the broadest possible meaning, [0070] While various embodiments of the present invention have been described in detail, it is apparent that various modifications and alterations of those embodiments will occur to and be readily apparent those skilled in the art. However, it is to be expressly understood that such modifications and alterations are within the scope and spirit of the present invention, as set forth in the appended claims. Further, the invention(s) described herein is capable of other embodiments and of being practiced or of being carried out in various other related ways. In addition, it is to be understood that the phraseology and terminology used herein is for the purpose of description and should not be regarded as limiting. The use of including, comprising, or having and variations thereof herein is meant to encompass the items listed thereafter and equivalents thereof as well as additional items.

-172014284290 15 Feb 2018

Claims

I claim:

1. A mobile communication device comprising:

a first member having a central thickness, a pair of opposed end thicknesses, a first surface with a first radius of curvature, and a second surface with a second radius of curvature;

a second member having a central thickness, a pair of opposed end thicknesses, a third surface with a third radius of curvature, and a second fourth surface with a fourth radius of curvature; and a hinge pivotally connecting ends of the first and the second members with one another to facilitate pivotable movement of the first and the second members between an opened configuration and a closed configuration;

wherein a display screen located on the second surface and a display screen located on the third surface; an average of the first and the second radiuses of curvatures of the first member form a first member average radius of curvature for the first member, and an average of the third and the fourth radiuses of curvatures of the second member form a second member average radius of curvature for the second member; when the communication device is pivoted into the closed configuration, the first member average radius of curvature for the first member and the second member average radius of curvature for the second member form an average radius of curvature for the communication device of between 15.24 mm (6 inches) and 243.8 mm (8 feet) to facilitate carrying of the communication device in a hip pocket of a user; the fourth radius of curvature is larger than each of the first radius of curvature, the second radius of curvature, the third radius of curvature, the first member average radius of curvature, the second member average radius of curvature and the device average radius of curvature; and the central thickness of the second member is greater than the end thicknesses of the second member.
2. The mobile communication device of claim 1, wherein a first portion of an antenna is accommodated by the first member and a second portion of the antenna is accommodated by the second member and, when the communication device is pivoted into the opened configuration, the first and the second members are spaced

-182014284290 15 Feb 2018 apart from one another.
3. The mobile communication device of claim 2, wherein when the communication device is folded about the hinge into the closed configuration, a length of the communication device is approximately half of the length of the communication device when in the opened configuration.
4. The mobile communications device of claim 1, wherein the first and second surfaces are located on opposing sides of the first member;

the third and fourth surfaces are located on opposing sides of the second member; and the second and the third surfaces are located adjacent one another and inaccessible when the communication device is in the closed configuration, and the second and the third surfaces are spaced from one another and are accessible by a user when the communication device is in the opened configuration.
5. The mobile communication device of claim 1, wherein at least two of the first, the second, the third and the fourth radiuses of curvatures are between 5.08 mm (2 inches) and 243.8 mm (8 feet).
6. The mobile communication device of claim 1, wherein at least three of the first, the second, the third and the fourth radiuses of curvatures are between 5.08 mm (2 inches) and 243.8 mm (8 feet).
7. The mobile communication device of claim 1, wherein each of the first, the second, the third and the fourth radiuses of curvatures is between 5.08 mm (2 inches) and 243.8 mm (8 feet).
8. The mobile communication device of claim 1, wherein at least one of the first, second, third, and fourth radiuses of curvatures is about 5.08 mm (2 inches) to 60.96 mm (24 inches).
9. The mobile communication device of claim 1, wherein the first radius of curvature is about 5.08 mm (2 inches) to 60.96 mm (24 inches) and the fourth radius of curvature approaches infinity.

-192014284290 15 Feb 2018
10. The mobile communication device of claim 1, wherein the first radius of curvature is smaller than both the second radius of curvature and the third radius of curvature.
11. The mobile communication device of claim 2, wherein:

the antennae comprises at least multiple antennas which are less than 7.0 inches in length.
12. The mobile communication device of claim 1, wherein at least one of the second and fourth surfaces is one of a curved, concave surface, or a series of adjacent planar surfaces that join together and form a concave surface.
13. The mobile communication device of claim 1, wherein at least one of the first and third surfaces is one of a curved, convex surface, or a series of adjacent concave planar surfaces that join together and form a convex surface.
14. The mobile communication device of claim 1, wherein the communication device further comprises a processor, a memory, and a transmitter.
15. The mobile communication device of claim 14, wherein at least the display screen is located on the second surface is a curved display screen.
16. The mobile communication device of claim 14, wherein at least one display screen is located on the third surface.
17. The mobile communication device of claim 14, wherein at least one display screen that utilizes one of electronic paper, e-paper or electronic ink display technology.
18. The mobile communication device of claim 2, wherein the lengths of the antennae are about 7.0 inches or less.
19. The mobile communication device of claim 1, wherein a camera, located in the first member, is enclosed by a housing which protrudes from a corner of the first member and, when the communication device is pivoted into the closed configuration, fits into a well or depression provided in the second member.
20. The mobile communication device of claim 1, wherein the edges of at least one of

-202014284290 15 Feb 2018 the members are flexible and the flexible edges provide a shock absorbing benefit in the event that the device is dropped.

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FIG. 5

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FIG. 6

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FIG. 7A

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FIG. 7D

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R6 ¹R7 R3 RI R2 R4

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